DE102005045591A1 - Raw material e.g. granular material, separating device for use in grinding plant, has static separator with aeration base through which gas flows, where base is arranged in vertical direction and has specific ratio of breadth to height - Google Patents

Abstract

The device has a static separator (1) with an inclined aeration base (1a) through which separator gas (2) flows, where the aeration base is arranged in a vertical direction. An inlet opening (3) feeds raw material (9) to the aeration base, and an outlet opening (4) is provided for coarse particles. A downstream dynamic separator (5) has a rotor (5a) and another outlet opening for the separator gas loaded with fine particles. A ratio of breadth to height of the aeration base is 0.6.

Description

The The invention relates to a device for sifting feed a static sifter that has an oblique to the vertical, flowed through view gas aeration floor and a downstream dynamic classifier.

From the EP 0 650 763 For example, there is known a sifter for sifting granular material having a rod sifter and an upstream, shaft-shaped cascade sifter. This cascade classifier has two opposing, between a caution zone forming shaft boundary walls, which are permeable to the classifying air. The shaft boundary walls are formed by inclined, louvre-like baffles, which are traversed by view air across.

Of the Cascade classifier is operated in circulatory operation with a good bed roller mill, the baffles for deagglomerating, i. to unlock the in the good bed roller mill formed pats serve. The feed material is given from above to the cascade viewers and falls over the stairs arranged baffles down and is thereby deagglomerated and spotted. The fine components are combined with the classifying air, the Rod basket sifter supplied, while the coarse ingredients are led down.

The Dimensioning of the feeding organs to the classifier takes place on the basis of the manageable flows and supplies compact narrow mass flows. Of the narrow task stream and the integration of deagglomeration in the static level of this known static / dynamic classifier leads to the usual tall and narrow design. The width / height ratio of the stair cascades is in a range of about 0.15 to 0.35.

at greater throughput the Cascade classifier is proportionally increased in its width and height. Thereby but arise in different designs different visual efficiencies.

at huge Throughputs of such visual devices can also the Height of the static cascade classifier as well as the diameter of the bar basket the dynamic classifier sizes assume that too much space stress have been installed during the installation of the classifier and the the construction industry such sifter can no longer make economical.

In the DE 103 50 518 Therefore, at large throughputs, a sifting device for granular material is proposed which comprises a static cascade classifier with at least one viewing zone enclosed by the shaft-shaped viewing housing and an angle deviating from the vertical angle, and a dynamic rod sifter. The peculiarity is that the Sichtgaseintrittsgehäuse the sifter viewed in plan view has a flow branching on two strands in the manner of a bifurcated tube, wherein in both bifurcated tube housing branches a cantilevered rod basket is arranged. The mirror-image oppositely arranged end-side bar basket discharge ends are brought together to the outlet of the loading gas flow laden with fines via a further housing part to a common trigger housing. According to a first variant, a static cascade classifier is arranged in each of the two branch pipe branch branches. In a second variant, a common cascade classifier is provided before the branch.

The embodiment each with two separate cascade classifiers and two separate rod basket sifters causes relatively high costs. But also the variant with one common cascade viewers is relatively expensive because the cascade viewers at a high throughput due to its unfavorable width / height ratio very high height needed.

Of the Invention is therefore based on the object, the overall height of the device essential for viewing with a static and dynamic sifter to zoom out and the visual efficiency in classifiers with different Improve throughput rates.

According to the invention this Problem solved by the features of claim 1.

The inventive device for sifting of feed essentially consists of a static Classifier, one oblique to the vertical oriented, traversed by classifying gas ventilation floor has, an inlet opening for the task of the feed material on the aeration floor, an outlet opening for the coarse material, a downstream dynamic classifier, the at least one Rotor includes and an outlet for the with Fines laden sight gas. The ventilation floor has a relationship from width to vertical height of at least 0.45, preferably of at least 0.6.

Further embodiment of the invention are Subject of the dependent claims.

According to one preferred embodiment Furthermore, a device for distributing the feed over the Width of the ventilation floor intended. Furthermore, the static sifter expediently Upstream of deagglomerating means.

According to one preferred embodiment the surface of the ventilation floor plan formed and with ventilation openings, in particular ventilation slots, Mistake. The ventilation floor is with an angle between 20 ° and 70 °, preferably between 30 ° and 60 °, to Vertical inclined arranged.

According to one preferred embodiment of the invention, the ventilation floors differ from Devices in a series for different throughputs only in the width and not in the vertical height of each other. this causes in addition to the already much cheaper ratio of Width to vertical height even then no increase in height when the device with a higher one Throughput must be designed.

Further Advantages and embodiments of the invention will be described below the description of some embodiments and the drawing closer explained.

In show the drawing

1 a schematic side view of the device for sifting,

2 a schematic sectional view taken along the line III-III of 1 .

3 a sectional view of the detail III of 1 .

4 a flow diagram of a grinding plant with a device according to the invention for sighting,

5 a side view of a device for sifting with a distribution device according to a first embodiment,

6 a schematic sectional view along the line VI-VI of 5 .

7 1 is a schematic side view of a device for sifting with a device for distributing according to a second embodiment,

8th a schematic, partially sectioned plan view of 7 .

9 a schematic view of means for deagglomerating according to a first embodiment and

10 a schematic view of means for deagglomerating according to a second embodiment.

The in the 1 to 3 illustrated device 100 For sifting feed essentially consists of a static sifter 1 , which is an obliquely oriented to the vertical, of classifying gas 2 flowed through the ventilation floor 1a , an inlet opening 3 to the task of the feedstock 9 on the ventilation floor, an outlet opening 4 for the coarse material, a downstream dynamic classifier 5 , the at least one rotor 5a includes, and at least one outlet opening 6 for the fine gas loaded sight gas 2 ' ,

The ventilation floor 1a is inclined at an angle α between 20 ° and 70 °, preferably between 30 ° and 60 °, to the vertical. In the illustrated embodiment, the surface of the ventilation floor 1a Plan trained and with ventilation openings 1b , in particular ventilation slots provided (see 3 ).

The ventilation floor 1a has a ratio of width b to vertical height h of at least 0.45, preferably of at least 0.6. Accordingly, the width of the ventilation floor is much larger than in known equivalent power versions and therefore contributes to reducing the height of the device for sifting crucial. (Note: At b / h = 0.6, the width is smaller than the height!).

The static sifter 1 and the dynamic classifier 5 are in a common housing 7 housed, with the dynamic classifier in the in 1 shown side view is arranged obliquely above the ventilation floor. In the context of the invention, it would also be conceivable to connect the dynamic classifier via gas lines with the static classifier.

Of the Rotor is suitably mounted on both sides and can be horizontally or vertically aligned Have rotors.

That over the inlet opening 3 supplied feed 9 slips over the ventilation floor 1a down and is traversed by the viewing gas across. The fine material of the feed material is with the classifying gas 2 carried to the dynamic classifier, which comprises one or more rotors, in particular rod baskets.

The rejected in the region of the rotor medium grain fraction is disposed via a disposed within the housing feedback 8th to the outlet opening 4 for the coarse material.

The width of the rotor may correspond to the width of the ventilation floor. It would also be conceivable that the width of the rotor is larger or in particular smaller than the width of the ventilation floor is formed. For this case, a housing transition piece is provided between the static and dynamic classifier, which housing the different widths of the housing 7 in the area of the static classifier or the dynamic classifier.

4 shows a grinding plant with a device 100 for sifting and a good bed roller mill 200 , The device 100 includes next to the actual sifter still a device 101 for distributing the feed over the width of the ventilation floor 1a as well as funds 102 for deagglomeration of the from the good bed roller mill 200 to the device for sifting returned good.

In the 5 and 6 is a first embodiment of a device 101 shown for distributing the feed over the width of the ventilation floor. This device consists in the illustrated embodiment of baffles in the feed 7a of the housing 7 are arranged. The baffles 101 are designed so that they are the input material 9 , which has funding 10 is given in a certain width, on the width b of the ventilation floor 1a to distribute.

Instead of a static device for distributing the feed but also dynamic means are conceivable. In the 7 and 8th will be the device 101 through a vibrating gutter 101 ' educated.

For the upstream means 102 For deagglomeration comes, for example, a slug breaker 102 according to 10 into consideration, which is expediently below the Goodbettwalzenmühle 200 is arranged. As an alternative, for example, but would also be a blower 102'a according to 9 conceivable.

The mass flow of the feed material on the ventilation floor 1a decreases from top to bottom, because during the residence more and more fines with the classifying air is discharged. This reduces the flow resistance of the feed material in the direction of the outlet opening 4 for the coarse material. So that the classifying air can nevertheless flow uniformly through the feed material, the aeration bottom is designed such that it produces a pressure drop of 2 mbar to 8 mbar, preferably 3 mbar to 4 mbar.

The above-described device for sifting is characterized in that the ventilation floors 1a of devices in a series for different throughputs differ only in the width b and not in the vertical height h from each other. This means that the device only increases in width while the overall height remains substantially the same. This, in turn, means that the visual efficiency is substantially the same for devices with different throughputs because, unlike conventional devices, the dwell time, which is essentially determined by the vertical height, remains unchanged.

With increasing width is the means for distributing the feed over the Width of the ventilation floor increasingly important. As part of the series consideration is the width of the dynamic rotor preferably linear with the width of the static aerating base changed. In this case, the width of the rotor in principle of the width of the static Differ in level. In particular, the requirements are in the final grinding and partial final grinding with partial discharge of finished goods in the production process in principle different, so that here fixed combinations different widths static and dynamic classifier can be used. The view rooms The static and dynamic stages are then connected via transition pieces if necessary.

The stronger the ventilation floor 1a ventilated, the flatter it can be installed. Taking into account the usual demand for visible air and the material flow behavior, it is preferable to use an inclination of approx. 45 ° + -10 °. The air outlet speed from the aeration floor is chosen so high that the feed material is predominantly held in suspension and only the coarse material touches the ventilation floor. This also prevents the material clogging the ventilation holes and deposits. To achieve this, air speeds should be at the outlet openings 1b of the aeration bottom of at least 20 m / s, preferably 30 m / s.

The inventive device For sighting of feed material is characterized by a high visual efficiency out and needed Compared to the known Cascade classifiers a much lower height, which saves costs.

Claims (9)

Device for sifting ( 100 ) of feed with a. a static classifier ( 1 ), an obliquely oriented to the vertical, of sight gas ( 2 ) flowed through ventilation floor ( 1a ), b. an inlet opening ( 3 ) to the task of the feed material ( 9 ) on the aeration floor ( 1a c. an outlet opening ( 4 ) for the coarse material, d. a downstream dynamic classifier ( 5 ), the at least one rotor ( 5a ) and e. at least one outlet opening ( 6 ) for the fine gas loaded sight gas 2 ' characterized in that the ventilation floor ( 1a ) has a ratio of width (b) to vertical height (h) of at least 0.45, preferably of at least 0.6. Apparatus according to claim 1, characterized in that further comprises means ( 101 ) is provided for distributing the feed material over the width of the ventilation floor. Apparatus according to claim 1, characterized in that the static classifier means ( 102 ) are preceded by deagglomeration. Device according to claim 1, characterized in that the width of the rotor ( 5a ) of the width of the aeration floor ( 1a ) and between the static and dynamic classifier a housing transition piece is provided. Apparatus according to claim 1, characterized in that the surface of the aeration floor ( 1a ) plan and with ventilation openings ( 1b ) is provided. Apparatus according to claim 1, characterized in that the ventilation floor ( 1a ) is inclined at an angle between 20 ° and 70 °, preferably between 30 ° and 60 °, to the vertical. Apparatus according to claim 1, characterized in that the ventilation floor ( 1a ) is designed such that it produces a pressure drop of 2 mbar to 8 mbar, preferably 3 mbar to 4 mbar. Apparatus according to claim 1, characterized in that the aeration floors ( 1a ) of devices in a series for different throughputs differ only in width (b) and not in the vertical height (h) from each other. Grinding plant with a device according to one or more the claims 1 to 8 and a good bed roller mill.